US1744867A - Method of roasting ores and minerals - Google Patents

Description

Patented Jan. 28, 1930 UN'ITEDiS 'TATE S PATENT OFFICE 'MELVILLE FULLER GOOLBAUGH AND JOHN BURNS READ, OF GOLDEN, COLORADO, ASSIGNORS T COMPLEX ORES RECOVERIES COMPANY METHOD ROASTING ORES AND MINERALS No Drawing.

This invention relates to the roasting of sulphide ores and minerals preliminary to smelting, and has for its objectthe rapid and efiicient elimination of sulphide sulphur and the production of oxides and sulphates and other highly oxidized products which lend themselves readily to sinterin and smelting. While this method is applica le to all types of roasting where the elimination of sulphide e sulphur is required,-it is of especial advantags in roasting complex sulphide ores and concentrates containing zinc, lead, copper and iron preliminary to leadsmelting.

In outline the roasting is accomplished as 5 follows: The material to be roasted or desulphidized is carried along with the air for roasting and the gases formed by theroast while maintaining a high temperature and throughly mixing or rabbling the material. In general practice sulphides are given a countercurrent roast to eliminate a portion of the sulphide sulphur preliminary to sintering and smelting. During the sintering more of the sulphide sulphur is eliminated 5 to bring the sulphur content down to the requirements of the blast furnace. Some sulphur is necessary in the blast furnace charge for the formation of matte to collect the copp When a complex ore carrying zinc is roast ed as above, the sulphide sulphur will remain with the zinc as zinc sulphide and will enter the blast furnace as such. Not all of this sulphur will be taken up by the iron, lead and copper in the formation of the matte,

but some will remain as zinc sulphide and form zinc sponge or mush which is a solid at the temperature-of the furnace and collects between the matte and the slag. This sponge 40 carries values in precious metals and copper,

is difficult to separate from the slag and must be recovered, .re-roasted, sintered and smelted.

Whenzinc goes to the blast furnace as zinc 4.5 oxide, it enters the slag and does not react Application filed June 13, 1924. Serial No. 719,911

with the sulphur present to form zinc sulphide. -As a result there is no zinc sponge and the expense of smelting is reduced.

he present process has three important features;

First, it provides a very eflicient and economical method of roasting sulphide minerals by rabbling the highly oxidized particles'formed on the surface of the charge into the charge where an interaction takes place with sulphide particles whereby sulphur dioxide gas "is evolved.

Second, it produces oxides and sulphates and other highly oxidized products which have a distinct advantage for sintering preliminary to smelting.

Third, it insures the virtual absence of zinc sulphide in the calcine, thus eliminating zinc sponge from the blast furnace, thereby reducing blast furnace costs.

To operate this method of roasting suc-. cessfully it is necessary to understand some of the thermal effects, as well as the major chemical reactions involved. When the ore is charged into the furnace the iron sulphides begin to react readily with the air, and, if the temperature is not too high (450550 C.) form ferric oxide (Fe O and (S0 sulphur dioxide. Next the lea copper and zinc sulphides will begin to react with air, forming metallic oxides and sul hur dioxide. Ferric oxide in the presence 0 oxygen will react catalytically upon the sulphur dioxide and form sulphur trioxide ($0 with the liberation of heat. Sulphur trioxide in the presence of such metallic oxides as lead, zinc and copper will interact with them,

forming sulphates, also with the liberation of heat. Ferric oxide has the property of absorbing much sulphur dioxide and oxy en at temperatures of 4505'50C. and at big er temperatures (above 550 (1) giving off sulphur trioxide. When highly oxidized compounds such as sulphates (especially lead, zinc and copper) sulphur trioxide or ferric 90 3 Z nSO plus ZnS=4ZnO plus 460;;-

There are of course similar reactions involyed for the lead and copper sulphide minera s.

From the above chemical reactions it becomes very apparent that oxidation of the sulphide mineral is taking place not only from the surface of the charge but from the interior of the charge where the oxidized mineral comes in contact with the sulphide or unoxidized mineral and as a result a complete elimination of sulphide sulphur is quickly effected.

So long as the minerals and gases are moved together and in the same direction it is immaterial what type of furnace is used. For instance the furnace may be horizontal or vertical or one inclined from the horizontal or vertical as may prove of advantage. The furnace which has been used for proving the process is a vertical one of the super-imposed hearth type.

The highly oxidized product obtained from the roast lends itself readily to both sintering and smelting. The calcine is sintered by mixing with raw sulphides or matte and treating in a Dwight Lloyd sintering machine or in Huntington Heberlein pots. The amount of sulphide added will depend entirely upon the oxidizing power of the calcine. Enough excess sulphur should be added to insure the correct sulphur content in the blast furnace. If it is desirable to keep entirely away from zinc sulphide in the blast furnace then raw sulphides of lead, copper or iron, and not a material carrying zinc sulphide, should be used to mix with the calcine preliminary to sintering.

The chemistry of the sintering as regards the elimination of sulphur is very similar to that of roasting:

O3Fe O plus PbS=PbO plusGFeO plus 2. 3ZnSO plus PbS=PbO plus 3ZnO plus 4802.

minerals, as well as the time for roasting. The calcine from simple sulfides may go directly to reverberatory furnaces without mixin with other sulfides, or without sintering.

Ty roasting as previously outlined and then sintering the calcine, a distinct saving results due to the fact that only a portion of the original sulphide mineral need be given a preliminary roast and that a product will result which will be free from zinc sulphide.

No zinc sulphide means no zinc sponge in the blast furnace, and a saving due to reduced metal losses and a reduction in material reroasted, sintered and smelted.

It is evident that no definite temperatures for roasting, proportion of air to ore, or proportion of raw sulphide to mix with the calcine preliminary to sintering can be given since all of these factors will vary with the composition of the material to be treated.

A complex ore containing 10% lead, 25% zinc, 15% iron, 5% copper and 30% sulphur required thirty to fifty cubic feet of air, measured at standard conditions, per lb. of ore. The temperatures range from 450 C. for the beginning of desulfidization up to a max imum of 950 C. The most desirable temperature from an operating standpoint and for the efficient elimination of sulphide sulphur lies between 650 C. and 800 C.

The time required for roasting ranges between two and twelve hours depending upon the temperatures employed. The quantity of such sulphide mixed withthe calcine preliminary to sintering is such that the charge will contain 63-15% of total sulphur". In sintering operation the sulphur will be roasted down to two to five per cent, depending upon the grade of matte desirable to produce. The sinter is smelted in the lead blast furnace in the usual manner.

\Vhat we claim is 1. A process of treating sulphide ores preliminary to further treatment which comprises subjecting the said ores to a preliminary roasting in the presence of air by causing the ores and air to travel in the same direction and subjecting them to a sufficiently high temperature to create oxidized compounds,

and then sintering the said oxidized compound to prepare them for a further treat ment adapted to recover the values of the ores.

.2. A process of treating sulphide ores preliminary to further treatment which comprises subjecting the said ores to a preliminary roasting in the presence of air by causing the ores and air to travel in the same direction and subjecting them to a sufficiently high temperature to, create oxides and sulphates and then sintering the said oxides and sulphates to prepare them for smelting, and then smelting the sintered product.

31 A process of treating sulphide res preliminary to further treatment which comprises subjecting the said ores to a preliminary roasting in the presence of air by causing the ores and air to travel in, thesame direction while subjecting them to a sufliciently high temperature to create oxides and sulphates and after the formation of the said I oxides and'sulphates, mixing therewith furprises subjecting the said ores to a preliminary roasting in the presence of air by causing the ores and air to travel in the same direction and subjecting them to sufliciently high temperature to create oxides and sulphates, adding to the said oxides and sulphates zincfree, sulphideores, thereby forming a mixture highly adapted for sintering, sintering the said mixture to prepare it for smelting and I then smelting the sintered mixture.

5. A process of treating sulphide ores containing zinc preliminary to further treatment which comprises subjecting the ores to a preliminary roasting in the presence of air by causing the ores and air to travel in the .same direction and subjecting them to a sufficiently high temperature to form zinc oxide and sulphates preliminary to sintering, sintering the said zinc oxide 7 and sulphates, thereby preparing product suitable for smclting, and smelting the said product.

6. A process of smelting sulphide ores containing zinc which comprises subjecting the said ores to a preliminary roasting in the presence of air by causlng the ores and a1r to travel in the same direction and subjecting them -'to a sufliciently high temperature to form zinc oxide and sulphates, 'mixin with the said zinc oxide and sulphates a urther quantity of untreated ore to form a mixture highly adaptable for sintering, sintering the mixture to form a product readily adapted .for smelting, and then smelting the said product.

7. A process of treating sulphide ores preliminary to further treatment which comprises: subjecting the'said'ores' to a preliminary roastingin the presence of air by causing the ores and air to travel in the same direction, while subjecting them to tempera-.

tures ranging substantially between 450 C. and 950 0., thereby creating oxides and sul phates readily amenablefor. sinterin sintering the said oxides and sulphates pre iminary to smelting, and then .smeltingthesintered 3 product.

tures. f r LELVILLE FULLER COOLBAUGH. JOHN BURNS v .In testimony whereof,we-a fiix our signa-